Patent ID: 8378801
Filing Date: 2013-02-19
Classification: B60N,B60R,G08B

Abstract:
1. A system for determining abandonment of a child or infant in a vehicle, said system comprising: (a) a remote key comprising a lock button for effectively remotely locking a vehicle, an unlock button for effectively remotely unlocking a vehicle, and an override button; (b) a first receiver, a first transmitter, and a speaker component each disposed in the remote key, the speaker component is adapted to emit an alarm sound; (c) a remote microprocessor operatively connected to each the lock button, the unlock button, the override button, the first receiver, the first transmitter, and the speaker component; (d) a plurality of sensors each operatively connected to a seatbelt in a vehicle, the sensors each function to determine if the seatbelt engaged; (e) a seatbelt microprocessor operatively connected to each sensor and to a second receiver, the second receiver is adapted to receive signals from the first transmitter; and (f) a second transmitter operatively connected to the seatbelt microprocessor, the second transmitter is adapted to send signals to the first receiver in the remote key; wherein the remote microprocessor is configured to receive a first lock input signal from the lock button when the lock button is pressed whereupon the remote microprocessor generates a first transmitter output command to the first transmitter to cause the first transmitter to send a first lock transmitter signal to the second receiver, the seatbelt microprocessor is configured to receive a second lock input signal from the second receiver when the second receiver receives the first lock transmitter signal whereupon the seatbelt microprocessor sends a first sensor output command to the sensors to cause the sensors to detect an engaged seatbelt after a pre-set time, wherein the seatbelt microprocessor is configured to receive a first alarm input signal from the sensors if a sensor detects an engaged seatbelt whereupon the microprocessor generates a first alarm output command to the second transmitter to cause the second transmitter to send a first alarm transmitter signal to the first receiver, the first receiver sends a second alarm input signal to the remote microprocessor when the first receiver receives the first alarm transmitter whereupon the remote microprocessor sends a first speaker output command to the speaker component to cause the speaker component to emit the alarm sound, wherein the seatbelt microprocessor is configured to send a first door lock signal to a door lock system of the vehicle to activate the door lock system to lock vehicle doors if the seatbelt microprocessor does not receive the first alarm input signal from the sensors after the pre-set time; wherein the remote microprocessor is configured to receive a first unlock input signal from the unlock button when the unlock button is pressed whereupon the remote microprocessor generates a second transmitter output command to the first transmitter to cause the first transmitter to send a first unlock transmitter signal to the second receiver, the seatbelt microprocessor is configured to receive a second unlock input signal from the second receiver when the second receiver receives the first unlock transmitter signal whereupon the seatbelt microprocessor sends an first door unlock signal to the door lock system of the vehicle to deactivate the door lock system to unlock the vehicle doors; wherein the remote microprocessor is configured to receive a first unlock input signal from the unlock button when the unlock button is pressed whereupon the remote microprocessor generates a second speaker output command to the speaker component to cause the speaker component to not emit the alarm sound; wherein the remote microprocessor is configured to receive a first override input signal from the override button when the override button is pressed whereupon the remote microprocessor generates a third transmitter output command to the first transmitter to cause the first transmitter to send a first override transmitter signal to the second receiver, the seatbelt microprocessor is configured to receive a second override input signal from the second receiver when the second receiver receives the first override transmitter signal whereupon the seatbelt microprocessor send a second door lock signal to the door lock system of the vehicle to activate the door lock system to the lock vehicle doors; and wherein the remote microprocessor is configured to receive a first override input signal from the override button when the override button is pressed whereupon the remote microprocessor generates a third speaker output command to the speaker component to cause the speaker component to not emit the alarm sound.