Patent Grant
9101788
This application claims the priority of UK Patent Application No. 1102381.9, filed on Feb. 10, 2011, and UK Patent Application No. 1117756.5, filed on Oct. 14, 2011, the entire contents of which are incorporated by reference herein.
The invention relates to a case for an emergency escape breathing apparatus.
An emergency escape breathing apparatus is intended to enable a user to escape from a polluted or hazardous environment. Such environments may arise following an industrial accident, natural disaster, fire or other situation in which potentially toxic substances are released into the atmosphere, for example, in the form of gases, particulate dispersions, etc. An emergency escape breathing apparatus typically comprises a source of breathable gas, a hood or mask to be placed over the head of a user, and a flexible supply line to deliver breathable gas from the source to the hood or mask. The device is activated by placing the hood or mask over the head and then opening a valve to start the flow of breathable gas through the supply line to the hood or mask. While breathing through the hood or mask, the user then evacuates from the hazardous environment, carrying the source of breathable gas. The source of breathable gas is not generally particularly large, usually containing between 10 and 15 minutes of breathable air. This amount is sufficient to enable a user to evacuate to a place of safety, without being too big and heavy to allow easy carrying by the user.
An emergency escape breathing apparatus is thus not designed for regular or continual use. Such apparatus is provided, and may be legally required, in environments where the potential for hazardous conditions exists. The apparatus enables evacuation from such environments in the event of an emergency, its use being envisaged only in exceptional circumstances. Particular design constraints apply to equipment of this nature, which may remain in storage for an extended period of time but must always to be ready for use in the event of an emergency. Storage is a particular issue, as the apparatus must be readily visible and available in the event of an emergency, without getting in the way of day to day operations. Additionally, the apparatus must be sufficiently light weight to be carried by a user, who may be in physical distress, yet robust enough to withstand rigorous movement in the event of use, and potential accidental damage that may occur as a result of being stored in a high profile and possible busy location. Finally, the apparatus must be sufficiently simple in operation to be used by untrained personnel in the event of an emergency.
To date, it has proved difficult to adequately fulfil all of the above design requirements. An existing emergency escape breathing apparatus may be contained within a high visibility bag, which is light and easy to carry but is subject to damage. Dedicated storage units must be supplied to house the apparatus, potentially occupying valuable space in industrial environments where space may be at a premium. In seeking to address these issues, it may be that ease of use is compromised, or simply that the apparatus becomes costly to manufacture and maintain, a considerable disadvantage in safety equipment that may only rarely be called upon.
An exemplary embodiment of the present invention comprises a case for an emergency escape breathing apparatus, including a substantially rigid hollow shell defining a cylinder housing portion for retaining a cylinder of breathable gas and a delivery device housing portion for removably housing a delivery device for the breathable gas supplied by the cylinder; and an access opening providing access to the interior of the delivery device housing portion through which a delivery device can be inserted and removed.
An exemplary embodiment of the present invention also comprises a case for an emergency escape breathing apparatus including a substantially rigid hollow shell formed from a plastics material defining a cylinder housing portion for retaining a cylinder of breathable gas and a delivery device housing portion for removably housing a delivery device for the breathable gas supplied by the cylinder, the shell comprising first and second shell parts comprising two halves of the shell which are substantially longitudinally coextensive with one another and which are arranged to assembled around a cylinder of breathable gas so as to cooperatively retain the cylinder therebetween within the cylinder housing portion; an access opening providing access to the interior of the delivery device housing portion through which a delivery device can be inserted and removed; an access panel arranged to close the access opening and at least partially detachable from the shell so as to expose the access opening; and a strap attached to the shell and arranged to be received on the body of a wearer.
An exemplary embodiment of the present invention also comprises an emergency escape breathing apparatus including a cylinder of breathable gas; a delivery device fluidically connected to the cylinder by a supply line; and a case including a substantially rigid hollow shell formed from a plastics material defining a cylinder housing portion which retains the cylinder of breathable gas and a delivery device housing portion which removably houses the delivery device; the shell comprising first and second shell parts comprising two halves of the shell which are substantially longitudinally coextensive with one another and that are assembled around the cylinder of breathable gas so as to cooperatively retain the cylinder therebetween within the cylinder housing portion; an access opening providing access to the interior of the delivery device housing portion through which the delivery device can be inserted and removed; an access panel arranged to close the access opening and at least partially detachable from the shell so as to expose the access opening; and a strap attached to the shell and arranged to be received on the body of a wearer.
The invention will be better understood with reference to the following detailed description, of which the following drawings form an integral part.
According to an aspect of the invention there is provided a case for an emergency escape breathing apparatus, comprising: a substantially rigid hollow shell defining a cylinder housing portion for retaining a cylinder of breathable gas and a delivery device housing portion for removably housing a delivery device for the breathable gas supplied by the cylinder; and an access opening providing access to the interior of the delivery device housing portion from which a delivery device can be removed. The shell may comprise first and second shell parts that in use are assembled around a cylinder of breathable gas so as to cooperatively retain the cylinder therebetween within the cylinder housing portion.
The first and second shell parts, also known as component parts, may, for example, comprise two halves of the shell which may be connected to form the complete shell.
The first and second shell parts may be secured together by at least one bolt. Additionally or alternatively, pins or other suitable connecting elements may be used.
The first and second shell parts may be substantially longitudinally coextensive with one another. The first and second shell parts may be substantially mirror images of one another. The first and second shell parts may join along a longitudinally extending plane. The plane may divide or bisect both the cylinder housing portion and the delivery device housing portion.
The first and second shell parts may comprise cooperating formations, operable to interlock. Such cooperating formation may, for example, comprise corresponding lugs and recesses formed along a connecting edge, or any other suitable formation to allow interlocking of adjacent areas of the first and second shell parts.
The first and second shell parts may be joined by a hinge arrangement.
The shell may be formed from a plastics material and may be formed from a conductive plastics material. Such a material has the advantage of eliminating any potential electrostatic hazard, for example, in an environment requiring intrinsically safe equipment.
The first and second shell parts may be integrally formed with one another. The shell may be formed from a moulded component or components and may, for example, be injection moulded.
The shell may further comprise internal fixing elements operable to retain a cylinder of breathable gas within the housing chamber. Such elements may cooperate to clamp the cylinder in position within the housing chamber. The fixing elements may impart additional stability and rigidity to the housing chamber and/or the cylinder, ensuring the cylinder is securely retained in the shell even during the rigorous movement that may take place during use of the apparatus.
The shell may further comprise an opening giving access to the housing chamber. The case may further comprise an access panel arranged to close the access opening and may be at least partially detachable from the shell so as to expose the access opening.
The access panel may comprise a sliding panel, a lid or a fabric strip, and may, for example, include a tab portion for grasping by a user in order to facilitate removal of the access panel and access to the interior of the housing chamber.
The access panel may be at least partially detachable from the shell by tearing. For example, the access panel may comprise pre-formed lines of weakness along which it is predisposed to fail under a tearing action performed by a user.
Alternatively, the access panel may be detachably sealed to the shell. For example, a temporary fixation device such as a hook and loop fastener (e.g., VELCRO®) may be employed to seal the access panel to the shell.
The case may further comprise an activation key, which may be operably connected to the access panel. The activation key may be arranged to open a valve on the cylinder of breathable gas to start the flow of breathable gas into the delivery device. The operable connection between the access panel and the activation key may be such that at least partial detachment of the access panel causes the activation key to open the valve and start the flow of breathable gas.
The case may further comprise a strap attached to the shell which is arranged to be received on the body of a wearer. The strap may be a shoulder strap or a waist strap.
The strap of the case may be a body strap, for example, to fit around the neck, or over the head and shoulder of a wearer, as appropriate. Alternatively, the strap may comprise a component part of a harness.
The strap may be formed from any suitable fabric material. The strap may be treated to ensure fire retardant or other desirable characteristics.
The strap may be attached to the shell via the bolts that connect the first and second shell parts of the shell.
The case may further comprise an external mounting element connected to the shell for mounting the case to a mounting surface. The Mounting element of the case may comprise a projecting lug which may be formed on an external surface of the shell.
A mounting recess may extend through the lug, and may be operable to receive a mounting projection on a corresponding mounting surface.
The mounting lugs may be shaped, for example, to engage a wall or other mounting surface, so as to stabilise the case in a mounted or resting position.
The mounting element may comprise a loop formed on an external surface of the shell.
The case may comprise a plurality of mounting elements, which may be located on the case so as to impart additional stability to the case when in a mounted position.
The shell may further comprise a viewing window which may be positioned to correspond to a gauge location on a cylinder housed within the shell.
The shell may further comprise at least one external patch of photo-luminescent material. The patch may, for example, comprise a strip of photo-luminescent material or fabric, or a painted patch of photo-luminescent paint or ink.
The shell may be operable to house a cylinder containing not more than 30 minutes of breathable gas. For example, the shell may be operable to house a cylinder containing 10 or 15 minutes of breathable gas.
According to another aspect of the invention, there is provided an emergency escape breathing apparatus comprising: a case in accordance with any statement herein; a cylinder of breathable gas; and a delivery device fluidically connected to the cylinder by a supply line; wherein the first and second shell parts are assembled around the cylinder of breathable gas so as to cooperatively retain the cylinder therebetween within the cylinder housing portion; and wherein the delivery device is removably housed within the delivery device housing portion and removable through the access opening.
The delivery device may, for example, be a mask or hood and may comprise a viewing panel and a seal, operable to seal against the head or neck of a wearer.
According to a further aspect of the invention, there is provided a case for an emergency escape breathing apparatus, comprising: a substantially rigid shell defining a housing chamber; an external mounting element connected to the shell; and a strap attached to the shell and operable to be received on the body of a wearer; wherein the shell is operable to house a cylinder of breathable gas and an associated delivery device within the housing chamber.
With reference to
The shell 4 is formed from a plastics material such as Nylon. The shell 4 may be moulded, for example, by using injection moulding techniques. According to one embodiment, the shell 4 is formed from a conductive plastics material, thus eliminating potential electrostatic hazards.
With particular reference to
The shell 4 is formed from first and second shell parts 22, 24 that are detachably attached to one another to form the complete shell 4. Each shell part 22, 24 comprises a semi cylindrical region that when assembled constitutes a longitudinal shell part of the cylinder housing portion 14, and a projecting region that when assembled forms a longitudinal shell part of the delivery device retaining portion 16. The first and second shell parts 22, 24 thus represent a substantially longitudinal division of the shell 4, with the interface 26 between the first and second shell parts 22, 24 extending around the entire circumference of the shell 4. The two shell parts 22, 24 may be at least partially joined along a line of interaction 28 that extends longitudinally along at least part of the length of the cylinder housing portion 14, on a surface of the cylinder housing portion 14 that is opposite to the delivery device retaining portion 16. In the embodiment illustrated in
The shell 4 further comprises an opening 38 extending through the shell 4 and giving access to the internal housing chamber 6 of the shell 4. The opening 38 is formed in a surface of the delivery device retaining portion 16 that is opposite to the cylinder housing portion 14 and constitutes an upper surface of the case, as seen in
With reference to
With reference to
With particular reference to
As seen in
The case 2 of the invention is designed for use with an emergency escape breathing apparatus. Such apparatus comprises a cylinder of breathable gas 20 and a delivery device in the form of a mask or hood (not shown). The mask or hood is designed to fit closely to or over the head of a user and is connected to the cylinder of breathable gas 20 by a flexible supply line. The cylinder comprises or is provided with a valve which, when opened, permits a regulated flow of gas through the supply line and into the mask or hood for delivery to the user. The user is thus provided with an emergency supply of, typically, 10 to 15 minutes of breathable gas, allowing emergency evacuation from a hazardous environment. It will be appreciated that such apparatus is employed only in an emergency, and may therefore be required by users who have little familiarity or training with the apparatus.
In use, the case 2 of the invention is first assembled around the cylinder 20 and the delivery device of the emergency escape breathing apparatus. As seen particularly in
In the event of an emergency causing a hazardous environment, the case 2 is removed from its storage location by a user. The tab or handle 42 of the closure 40 is grasped by the user and pulled to remove the closure 40 from the opening 38. If an activation key is not present, the user manually starts the flow of breathable gas from the cylinder 20 by opening the valve. Otherwise, the breathable gas supply starts automatically. The mask or hood is then removed from the case 2 and placed over the head of the user. It will be appreciated that while the mask or hood is removed from the case 2, the cylinder of gas 20 is non-removable (without disassembling the case) and therefore remains securely held within the case 2. The user then places the body strap 12 around the neck, or over the shoulder, conveniently carrying the case 2 including the cylinder 20 on the body while leaving both hands free for use during evacuation. The user then evacuates the hazardous environment, while breathing safe, breathable gas supplied by the emergency escape breathing apparatus.
It will be appreciated that the case 2 of the invention thus presents a resilient, durable housing for an emergency escape breathing apparatus that is easy to use and store. There is no need for separate storage equipment as the storage solution is built into the apparatus. In addition, the apparatus is sufficiently robust to withstand accidental damage during long periods of storage as well as impact and rugged movement during use. The breathing apparatus of cylinder, mask or hood and supply line remain protected within the rigid case during storage, and the cylinder remains protected within the case during use. The case 2 may be made suitable for environments requiring intrinsically safe equipment through the use of a conductive plastics material for the shell 4.
| Number | Date | Country | Kind |
|---|---|---|---|
| 1102381.9 | Feb 2011 | GB | national |
| 1117756.5 | Oct 2011 | GB | national |
| Number | Name | Date | Kind |
|---|---|---|---|
| 2831607 | Berndt | Apr 1958 | A |
| 2866456 | Lovy et al. | Dec 1958 | A |
| 3800819 | McKee | Apr 1974 | A |
| 3981302 | Veit | Sep 1976 | A |
| 4196725 | Gunderson | Apr 1980 | A |
| 4241833 | Luebcke | Dec 1980 | A |
| 4243155 | Stewart | Jan 1981 | A |
| 4257415 | Rubin | Mar 1981 | A |
| 4788973 | Kirchgeorg et al. | Dec 1988 | A |
| 5299565 | Brown | Apr 1994 | A |
| 5676135 | McClean | Oct 1997 | A |
| 6684879 | Coffee et al. | Feb 2004 | B1 |
| 7350520 | Richard-Bey | Apr 2008 | B1 |
| 20050011520 | Rowe | Jan 2005 | A1 |
| 20070045152 | Kwok et al. | Mar 2007 | A1 |
| Number | Date | Country |
|---|---|---|
| 3814070 | Nov 1989 | DE |
| 3814070 | Nov 1989 | DE |
| 29503894 UI | Apr 1995 | DE |
| 0878119 | Sep 1961 | GB |
| 2275613 | Sep 1994 | GB |
| 03105720 | Dec 2003 | WO |
| 2004084981 | Oct 2004 | WO |
| 2007045905 | Apr 2007 | WO |
| Entry |
|---|
| http://www.jmwlimited.co.uk/Draeger—Saver—PP—Escape—Set.html dated May 15, 2008. |
| UK Search Report dated May 11, 2011. |
| UK Search Report dated Jan. 18, 2012. |
| Corresponding European Search Report dated Apr. 8, 2013. |
| Number | Date | Country | |
|---|---|---|---|
| 20120204868 A1 | Aug 2012 | US |
