Gas-monitoring and fall detection device
First Claim
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1. A gas monitoring and fall detection device comprisinga monitoring unit and a supervisory unit;
- wherein the gas monitoring and fall detection device monitors the local environment for hazards;
wherein when a hazard is detected an alarm is generated at the monitoring unit;
wherein when a hazard is detected an alarm is generated at the supervisory unit;
wherein the alarm generated at the supervisory unit includes information about the location of the monitoring unit when the alarm was generated;
wherein the monitoring unit comprises a plurality of sensors, an accelerometer, a GPS receiver, a first CPU, a first transmitter, a housing, and a speaker;
wherein the supervisory unit comprises a first receiver, a second CPU, an administrative device;
wherein the first CPU monitors the plurality of sensors;
wherein the first CPU monitors the accelerometer;
wherein the first CPU monitors the GPS receiver;
wherein the GPS receiver receives signals from the global positioning system and coverts this information into the longitude and latitude of the location of the GPS receiver;
wherein the first transmitter receives a predetermined alarm message generated by the first CPU, encodes the alarm into a transmittable form and transmits the alarm to the supervisory unit;
wherein the housing is a container that comprises a USB port, one or more manual alarm buttons, a belt strap, and a battery compartment;
wherein the housing contains the plurality of sensors, the accelerometer, the GPS receiver, the first CPU, the first transmitter, and the speaker;
wherein the one or more alarm buttons allow the wearer to manually generate an alarm;
wherein the USB port provides external power to the monitoring unit;
wherein the USB port provides for direct communication between the monitoring unit and the supervisory unit;
wherein the first CPU compares each of the plurality of sensor readings against predetermined normal ranges for each of the plurality of sensors;
wherein when the reading from one of the plurality of sensors is outside the predetermined normal range for that sensor the first CPU sends an alarm signal to the speaker;
wherein when the reading from one of the plurality of sensors is outside the predetermined normal range for that sensor the first CPU sends the predetermined alarm message to the first transmitter;
wherein the first CPU regularly monitors the accelerometer and compares the accelerometer against a predetermined normal range for the accelerometer;
wherein when the reading from the accelerometer is outside the predetermined normal range for the accelerometer the first CPU sends an alarm signal to the speaker;
wherein when the reading from the accelerometer is outside the predetermined normal range for the accelerometer the first CPU sends the predetermined alarm message to the first transmitter;
wherein the first CPU regularly queries the GPS receiver for the current location of the monitoring unit;
wherein when contact with the global positioning system is lost, the first CPU sends an alarm signal to the speaker;
wherein when contact with the global positioning system is lost, the first CPU sends the predetermined alarm message to the first transmitter.
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Abstract
The gas monitoring and fall detection device is a safety device intended to be worn by special duty personnel, such as maintenance people, who do not work in a set location and may inadvertently stray into dangerous situations. The gas monitoring and fall detection device monitors the working environment for dangerous gas levels and, when a dangerous gas level is detected, generates an alarm to the wearer and transmits an alarm to a supervisory station. The gas monitoring and fall detection device also contains an accelerometer to detect falls and a GPS module to provide the location of the wearer. The gas monitoring and fall detection device comprises a monitoring unit that is worn by the wearer and a supervisory station to receive the transmitted alarm information.
20 Citations
8 Claims
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1. A gas monitoring and fall detection device comprising
a monitoring unit and a supervisory unit; -
wherein the gas monitoring and fall detection device monitors the local environment for hazards; wherein when a hazard is detected an alarm is generated at the monitoring unit; wherein when a hazard is detected an alarm is generated at the supervisory unit; wherein the alarm generated at the supervisory unit includes information about the location of the monitoring unit when the alarm was generated; wherein the monitoring unit comprises a plurality of sensors, an accelerometer, a GPS receiver, a first CPU, a first transmitter, a housing, and a speaker; wherein the supervisory unit comprises a first receiver, a second CPU, an administrative device; wherein the first CPU monitors the plurality of sensors; wherein the first CPU monitors the accelerometer; wherein the first CPU monitors the GPS receiver; wherein the GPS receiver receives signals from the global positioning system and coverts this information into the longitude and latitude of the location of the GPS receiver; wherein the first transmitter receives a predetermined alarm message generated by the first CPU, encodes the alarm into a transmittable form and transmits the alarm to the supervisory unit; wherein the housing is a container that comprises a USB port, one or more manual alarm buttons, a belt strap, and a battery compartment; wherein the housing contains the plurality of sensors, the accelerometer, the GPS receiver, the first CPU, the first transmitter, and the speaker; wherein the one or more alarm buttons allow the wearer to manually generate an alarm; wherein the USB port provides external power to the monitoring unit; wherein the USB port provides for direct communication between the monitoring unit and the supervisory unit; wherein the first CPU compares each of the plurality of sensor readings against predetermined normal ranges for each of the plurality of sensors; wherein when the reading from one of the plurality of sensors is outside the predetermined normal range for that sensor the first CPU sends an alarm signal to the speaker; wherein when the reading from one of the plurality of sensors is outside the predetermined normal range for that sensor the first CPU sends the predetermined alarm message to the first transmitter; wherein the first CPU regularly monitors the accelerometer and compares the accelerometer against a predetermined normal range for the accelerometer; wherein when the reading from the accelerometer is outside the predetermined normal range for the accelerometer the first CPU sends an alarm signal to the speaker; wherein when the reading from the accelerometer is outside the predetermined normal range for the accelerometer the first CPU sends the predetermined alarm message to the first transmitter; wherein the first CPU regularly queries the GPS receiver for the current location of the monitoring unit; wherein when contact with the global positioning system is lost, the first CPU sends an alarm signal to the speaker; wherein when contact with the global positioning system is lost, the first CPU sends the predetermined alarm message to the first transmitter. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8)
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Current AssigneeMarcus Hansen
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Original AssigneeMarcus Hansen
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InventorsHansen, Marcus
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Primary Examiner(s)Lieu, Julie
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Application NumberUS14/666,439Time in Patent Office777 DaysField of SearchNoneUS Class CurrentCPC Class CodesG08B 21/043 detecting an emergency even...G08B 21/0446 worn on the body to detect ...G08B 21/14 Toxic gas alarms G08B21/16 ...G08B 5/225 Display details
