Hazard detector battery compartment facilitating ease of user access and device robustness

What is claimed is: 1. A hazard detector for detecting the presence of a hazard in a building or structure, the hazard detector comprising: a housing having an interior region within which components of the hazard detector are contained, the housing having a plurality of openings through which air flows so as to be accessible to a hazard sensor positioned within the interior region of the housing; a battery compartment configured for housing one or more batteries that provide a main power or supplemental power to one or more components of the hazard detector; and a battery compartment access door that is pivotably coupled with a bottom surface of the housing, the access door being pivotably closable over the battery compartment to secure the one or more batteries within the battery compartment and the access door being pivotably openable to allow user access to the one or more batteries positioned within the battery compartment such as for inspection or replacement, the access door comprising: a release member that releasably secures the access door in a closed position relative to the housing and that is releasable to allow the access door to be pivoted open; a first hinge member that pivotably couples the access door to the housing, the first hinge member enabling the access door to pivot along a first pivot path by a first pivot amount; and a second hinge member that enables the access door to pivot along a second pivot path by a second pivot amount, wherein a cumulative total of the first pivot amount and the second pivot amount is substantially greater than either pivot amount in isolation. 2. The hazard detector of claim 1 , further comprising a spring that is coupled with the first hinge member, the spring being configured to bias the access door toward the open position such that operation of the release member effects automatic opening of the access door. 3. The hazard detector of claim 2 , wherein the spring is a torsional spring. 4. The hazard detector of claim 1 , further comprising an access door block that prevents closing of the access door when less than a full complement of batteries are positioned within the battery compartment. 5. The hazard detector of claim 4 , wherein the access door block is configured to pivot into the battery compartment when less than the full complement of batteries are positioned within the battery compartment, and wherein when the full complement of batteries is positioned within the battery compartment, the batteries function cooperatively to prevent the access door block from pivoting into the battery compartment. 6. The hazard detector of claim 1 , further comprising a stop that functions operationally with the first hinge member to limit the pivot of the access door to the first pivot amount. 7. The hazard detector of claim 1 , wherein the first pivot amount is between about 80° and 100° and wherein the second pivot amount is between about 130° and 180°. 8. The hazard detector of claim 1 , wherein the battery compartment access door includes a recessed lip having a strip of material that presses into contact with the housing when closed the battery compartment access door is closed to seal any gaps between the battery compartment access door and the housing. 9. A battery access door for a hazard detector having a housing with a plurality of openings through which air flows so as to be accessible to a hazard sensor positioned within the interior region of the housing, the battery access door comprising: a release member that releasably secures the access door in a closed position over a battery compartment of the housing, the battery compartment being configured for housing one or more batteries that provide a main power or supplemental power to one or more components of the hazard detector, the release member being operable to allow the battery access door to be pivoted open to allow user access to the one or more batteries positioned within the battery compartment; a first hinge member that pivotably couples the battery access door to the housing, the first hinge member enabling the battery access door to pivot along a first pivot path and to pivot a first pivot amount; and a second hinge member that enables the battery access door to pivot along a second pivot path and to pivot a second pivot amount; wherein a cumulative total of the first pivot amount and the second pivot amount is substantially greater than either pivot amount in isolation. 10. The battery access door of claim 9 , further comprising a spring that is coupled with the first hinge member, the spring being configured to bias the battery access door toward the open position such that operation of the release member effects automatic opening of the battery access door. 11. The battery access door of claim 10 , wherein the spring is a torsional spring. 12. The battery access door of claim 9 , further comprising an access door block that prevents closing of the battery access door when less than a full complement of batteries are positioned within the battery compartment. 13. The battery access door of claim 12 , wherein the access door block is configured to pivot into the battery compartment when less than the full complement of batteries are positioned within the battery compartment, and wherein the batteries function cooperatively to prevent the access door block from pivoting into the battery compartment. 14. The battery access door of claim 9 , further comprising a stop that functions operationally with the first hinge member to limit the pivot of the battery access door to the first pivot amount. 15. A method of configuring a hazard detector comprising: providing a housing having an interior region within which components of the hazard detector are contained and having a plurality of openings through which air flows so as to be accessible to a hazard sensor positioned within the interior region of the housing; coupling a battery compartment with the housing, the battery compartment being configured for housing one or more batteries that provide a main power or supplemental power to one or more components of the hazard detector; and pivotably coupling a battery compartment access door with a bottom surface of the housing via a hinge component having a first pivot member and a second pivot member, the access door being pivotably closable over the battery compartment to secure the one or more batteries within the battery compartment and being pivotably openable to allow user access to the one or more batteries positioned within the battery compartment, wherein: the first pivot member enables the access door to pivot along a first pivot path by a first pivot amount; and the second pivot member enables the access door to pivot along a second pivot path by a second pivot amount, wherein a cumulative total of the first pivot amount and the second pivot amount is substantially greater than either pivot amount in isolation. 16. The method of claim 15 , further comprising coupling a spring with the hinge component, the spring being configured to bias the access door toward the open position such that operation of a release member effects automatic opening of the access door. 17. The method of claim 16 , wherein the spring is a torsional spring. 18. The method of claim 15 , further comprising coupling an access door block with the housing so that the access door block pivots into the battery compartment when less than a full complement of batteries are positioned within the battery compartment, wherein when the full complement of batteries is p