Systems for detecting animate objects in a vehicle compartment
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
B60R-022/00
E05F-015/00
G05D-001/00
G05D-003/00
G06F-007/00
G06F-017/00
출원번호
US-0933682
(2007-11-01)
등록번호
US-8190331
(2012-05-29)
발명자
/ 주소
Browne, Alan L.
Johnson, Nancy L.
Khoury, James Y.
Martin, Artie J
Zavattieri, Pablo D.
Barvosa-Carter, William
출원인 / 주소
GM Global Technology Operations LLC
대리인 / 주소
Quinn Law Group, PLLC
인용정보
피인용 횟수 :
16인용 특허 :
14
초록▼
Systems for detecting animate objects in a vehicle compartment include active materials based sensors for detecting the presence of an animate object in the compartment. The systems produce a response if the sensors detect the presence of an animate object in the compartment and at least one other p
Systems for detecting animate objects in a vehicle compartment include active materials based sensors for detecting the presence of an animate object in the compartment. The systems produce a response if the sensors detect the presence of an animate object in the compartment and at least one other predetermined condition exists.
대표청구항▼
1. A system for detecting an animate object inside a vehicle compartment comprising: a vehicle body defining the vehicle compartment;a controller;a first sensor defining an electrical circuit including a shape memory alloy, a first contact and a second contact;wherein the shape memory alloy is fixed
1. A system for detecting an animate object inside a vehicle compartment comprising: a vehicle body defining the vehicle compartment;a controller;a first sensor defining an electrical circuit including a shape memory alloy, a first contact and a second contact;wherein the shape memory alloy is fixedly connected to at least one of the first and second contacts and is configured to selectively change a distance between the first and second contacts;the first sensor being mounted with respect to the vehicle body to receive mechanical energy from a moving animate object inside the vehicle compartment and transmit the mechanical energy to the shape memory alloy; and being configured to generate an electrical charge or current by converting the mechanical energy to electrical energy when an electrical connection between the first and second contacts is changed from one of: open to closed; andclosed to open;by changing the distance between the first contact and the second contact;wherein the shape memory alloy is in thermal communication with the vehicle compartment such that transmitting mechanical energy from the moving animate object to the shape memory alloy and transitioning the shape memory alloy from one of a cold state and a hot state to the other of the cold state and the hot state in response to a temperature within the vehicle compartment deforms the shape memory alloy and changes the distance between the first contact and the second contact sufficiently to change the electrical connection between the first and second contacts from one of open to closed, and closed to open, thereby causing the first sensor to generate the electrical charge or current, said first sensor being operatively connected to the controller such that the controller receives a signal when the first sensor generates the electrical charge or current; andwherein the controller is configured to: determine whether the temperature inside the vehicle compartment is above a first predetermined temperature;determine whether the temperature inside the vehicle compartment is below a second predetermined temperature; andgenerate a command signal when the controller determines that at least one predetermined condition exists, said at least one predetermined condition including receiving the signal from the first sensor, and determining that the temperature of the passenger compartment is one of above the first predetermined temperature and below the second predetermined temperature. 2. The system of claim 1, further comprising a wireless transmitter operatively connected to the first sensor and configured to transmit a radio frequency signal to the controller in response to the electrical charge or current of the first sensor. 3. The system of claim 1, further comprising a telematics transmitter; and wherein the controller is operatively connected to the telematics transmitter to transmit the command signal thereto. 4. The system of claim 1, wherein the first sensor includes piezoelectric material. 5. The system of claim 4, wherein the piezoelectric material is a piezopolymer. 6. The system of claim 4, wherein the piezoelectric material is a piezoceramic. 7. The system of claim 1, wherein the command signal is at least one of a signal to unlock a vehicle door, activate a window regulator, activate an air conditioning system, sound an alarm, activate an audio system, activate a vehicle light, open a decklid, and open a liftgate. 8. The system of claim 1, wherein the first sensor is connected to an energy storage unit which is configured to store energy generated by one of deformation and dislocation of the first sensor. 9. The system of claim 8, wherein the energy storage unit is operatively connected to a radio frequency transmitter to transmit energy thereto to power the transmission of a radio frequency signal from the radio frequency transmitter. 10. The system of claim 9, wherein the power to transmit the radio frequency signal is provided by the first sensor and the energy storage unit independent of other vehicle power sources. 11. The system of claim 1, further comprising: a second sensor defining an electrical circuit including a shape memory polymer, a third contact and a fourth contact;wherein the shape memory polymer is fixedly connected to the third and fourth contacts and is configured to selectively change a distance between the third and fourth contacts;the second sensor being mounted with respect to the vehicle body to receive mechanical energy from the moving animate object inside the vehicle compartment and transmit the mechanical energy to the shape memory polymer; and being configured to generate an electrical charge or current by converting the mechanical energy to electrical energy when an electrical connection between the third and fourth contacts is changed from one of: open to closed; andclosed to open;by changing the distance between the third contact and the fourth contact;wherein shape memory polymer is in thermal communication with the vehicle compartment such that transmitting mechanical energy from the moving animate object to the shape memory polymer and transitioning the shape memory polymer above a glass transition temperature in response to a temperature within the vehicle compartment deforms the shape memory polymer to change the distance between the third contact and the fourth contact and to change the electrical connection between third and fourth contacts from one of open to closed, and closed to open, thereby causing the second sensor to generate the electrical charge or current, said second sensor being operatively connected to the controller such that the controller receives a signal when the second sensor generates the electrical charge or current; andwherein the controller is configured to generate a command signal when the controller determines that at least one predetermined condition exists, said at least one predetermined condition including receiving the signal from one of the first sensor and the second sensor, and determining that the temperature of the passenger compartment is one of above the first predetermined temperature and below the second predetermined temperature. 12. The system of claim 1, further comprising: a rigid member configured to receive energy from the moving animate object inside the vehicle compartment and transmit the mechanical energy to the shape memory alloy. 13. A system for detecting an object inside a vehicle passenger compartment comprising: a vehicle body defining the passenger compartment at a compartment temperature;a seat inside the passenger compartment;an active material member characterized by a first modulus below a predetermined temperature and a second modulus above the predetermined temperature, wherein the active material member is in thermal communication with the passenger compartment;an electrical circuit including the active material member and an alert system selectively activated by the active material member;wherein the seat is operatively connected to the active material member by a rigid member interposed between the seat and the active material and configured to transmit at least part of the weight of an animate object on the seat to the active material member; andwherein the active material member is configured to activate the alert system by deforming in response to the weight transmitted by the rigid member to the active material from the seat and transitioning from one of the first and second modulus to the other of the first and second modulus in response to the compartment temperature. 14. The system of claim 13, wherein the circuit further includes: a first contact;a second contact mounted with respect to the active material;wherein the active material is a shape memory alloy and configured such that the first and second contacts are moved apart from one another and the electrical circuit is opened to activate the alert system when the active material is deformed by the weight and above the predetermined temperature; andwherein the active material is configured such that the first and second contacts are in contact with one another and the alert system is deactivated when the active material is subjected to the weight below the predetermined temperature. 15. The system of claim 13, wherein the circuit further includes: a first contact connected to the active material member;a second contact connected to the active material member;wherein the active material is a shape memory polymer and configured such that the first and second contacts are apart from one another and the electrical circuit is open and the alert system is deactivated when the active material is deformed by the weight and below the predetermined temperature; andwherein the active material is configured such that the first and second contacts are moved in contact with one another to activate the alert system when the active material is deformed by the weight and above the predetermined temperature. 16. The system of claim 15, wherein the active material member is configured as a c-shaped hinge. 17. The system of claim 8, wherein the active material is a shape memory alloy; wherein the shape memory alloy forms a portion of the circuit; and wherein the circuit further includes a fuse member configured to fracture when the shape memory alloy is deformed by the weight and above the predetermined temperature, thereby opening the electrical circuit. 18. The system of claim 13, wherein the active material is connected to an energy storage unit which is configured to store energy generated by one of deformation and dislocation of the active material. 19. The system of claim 18, wherein the energy storage unit is operatively connected to a radio frequency transmitter to transmit energy thereto to power the transmission of a radio frequency signal from the radio frequency transmitter.
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