Emergency readiness verification system and method of calibration

What is claimed is: 1. An emergency readiness verification system for a fire extinguisher, the system comprising a housing, a secure weight-sensing mechanism, a vertically-actuated switch assembly, a vertically-adjustable calibration mechanism, and an alert device in communication with the vertically-actuated switch assembly, wherein: the housing comprises a removable faceplate; the secure weight-sensing mechanism is supported by the housing, is at least partially positioned behind the removable faceplate of the housing, and comprises a vertically-oriented weight-bearing spring, an extinguisher attachment, and an attachment extension; the removable faceplate of the housing comprises a vertically-oriented measurement aperture; the attachment extension of the secure weight-sensing mechanism extends from the extinguisher attachment along a vertical axis of the vertically-oriented weight-bearing spring, and comprises an engagement tab oriented to extend through the vertically-oriented measurement aperture; the vertically-adjustable calibration mechanism is secured to the removable faceplate and extends parallel to the vertically-oriented measurement aperture; the vertically-actuated switch assembly is secured to the vertically-adjustable calibration mechanism and comprises an actuator that is positioned to be engaged by the engagement tab of the attachment extension; the vertically-adjustable calibration mechanism is operable to fix a vertical position of the vertically-actuated switch assembly such that the engagement tab of the attachment extension engages the actuator of the vertically-actuated switch assembly when a weight of the fire extinguisher supported by the extinguisher attachment falls is within an alert threshold, and disengages the actuator of the vertically-actuated switch assembly when the weight of the fire extinguisher supported by the extinguisher attachment falls below the alert threshold or when the fire extinguisher is not supported by the extinguisher attachment; and the alert device generates an alert when the actuator of the vertically-actuated switch assembly is disengaged. 2. The system of claim 1 , wherein the vertically-oriented weight-bearing spring comprises a spring constant k of between approximately 0.40 kg/mm and approximately 0.50 kg/mm. 3. The system of claim 1 , wherein the vertically-actuated switch assembly is communicatively coupled to a remote computing device, and wherein the vertically-actuated switch assembly is operable to: generate a switch signal identifying a state of the vertically-actuated switch assembly; and initiate transmission of the switch signal to the remote computing device. 4. The system of claim 1 , further comprising a timer circuit, a timer reset interface, wherein the timer circuit is disposed within the housing and coupled to the alert device; the timer reset interface is coupled to the timer reset interface; the timer circuit determines whether an inspection of the fire extinguisher has occurred within an inspection time period; the timer reset interface receives input from a user, a key, an identification card, or a combination thereof to indicated that the inspection of the fire extinguisher has occurred; in response to receiving the input, the timer reset interface generates a reset signal that causes the timer circuit to reset; and in response to the timer circuit determining that the inspection of the fire extinguisher has not occurred within the inspection time period, the timer circuit instructs the alert device to generate an inspection alert. 5. The system of claim 4 , further comprising a time period selection circuit, wherein: the time period selection circuit is coupled to the timer circuit; and the time period selection circuit provides a signal to the timer circuit that defines a length of time T for the inspection time period. 6. The system of claim 5 , wherein the time period selection circuit includes a plurality of capacitors having a capacitance C; and a plurality of resistors having a resistance R, and wherein the length of time T is determined as T=1.1×R×C. 7. The system of claim 4 , wherein the timer circuit is communicatively coupled to a remote computing device, and wherein the timer circuit is operable to initiate transmission of data identifying whether the inspection alert has been generated to the remote computing device. 8. The system of claim 7 , wherein the vertically-actuated switch assembly is communicatively coupled to a remote computing device, and wherein the remote computing device is operable to generate a notification when the actuator of the vertically-actuated switch assembly is disengaged, the inspection alert has been generated, or both. 9. The system of claim 8 , wherein the remote computer device comprises an electronic display, and the remote computing device is further operable to generate the notification on the electronic display. 10. The system of claim 1 , further comprising a controller, wherein: the controller is communicatively coupled to the vertically-actuated switch assembly and the alert device; and the controller is operable to instruct the alert device to generate the alert when the actuator of the vertically-actuated switch assembly is disengaged. 11. The system of claim 10 wherein the controller is operable to: transmit data to a remote computer device; and wherein the remote computer device comprises an electronic display, wherein the electronic display generates alerts identifying a status of the fire extinguisher. 12. The system of claim 1 , wherein the alert device comprises a light, an audio alarm device, or both. 13. The system of claim 1 , further comprising a timer circuit and a timer reset interface, wherein: the timer circuit is disposed within the housing and coupled to the alert device; the timer circuit is communicatively coupled to a remote computing device; the timer reset interface is coupled to the timer reset interface; the timer circuit determines whether an inspection of the fire extinguisher has occurred within an inspection time period; the timer reset interface receives input from a user, a key, an identification card, or a combination thereof to indicate that the inspection of the fire extinguisher has occurred; in response to receiving the input, the timer reset interface generates a reset signal that causes the timer circuit to reset; in response to the timer circuit determining that the inspection of the fire extinguisher has not occurred within the inspection time period, the timer circuit is operable to instruct the alert device to generate an inspection alert and initiate transmission of data identifying whether the inspection alert has been generated to the remote computing device; the alert device comprises a light, an audio alarm device, or both; the vertically-actuated switch assembly is communicatively coupled to the remote computing device; and the vertically-actuated switch assembly is operable to generate a switch signal identifying a state of the vertically-actuated switch assembly and initiate transmission of the switch signal to the remote computing device. 14. A method of calibrating the system of claim 1 , comprising: attaching the fire extinguisher to a extinguisher attachment, wherein the fire extinguisher has not been discharged; allowing the vertically-oriented weight bearing spring to come to rest; positioning the vertically-actuated switch assembly at the fixed position on the vertically-adjustable calibration mechanism such that the actuator of the vertically-actuated switch assembly engages