Cargo trailer anti-terrorist and anti-theft system
First Claim
1. An apparatus for locking and unlocking a brake actuator of a dual chamber brake system that operates brakes with compressed air, wherein the dual chamber includes the brake actuator in a first pressurizable chamber that serves as a service housing chamber and a high spring-rate spring in a second pressurizable chamber that serves as an emergency housing chamber, the brake actuator being movable in an axial direction to apply and release the brakes of the brake system;
- in the absence of compressed air the high spring-rate spring expanding to bias and keep the brake actuator in an axially forward position locking the brakes of the brake system, and wherein when there is compressed air in the second chamber the high spring-rate spring is compressed and allows retraction of the brake actuator from its forward position to unlock the brakes, the apparatus comprising;
electro mechanical means responsive to a first coded signal for venting pressurized air from the second chamber and for preventing entry of pressurized air into the second chamber whereby expansion of the high spring rate spring causes the brake actuator to move into the axially forward position locking the brakes of the brake system, the electromechanical means being mounted in one of the pressurizable service housing chamber and the pressurizable emergency housing chamber the electro mechanical means also being responsive to a second coded signal for allowing pressurized air to enter into the second chamber and for disallowing the venting of pressurized air from the second chamber thereby unlocking the brake actuator and unlocking the brakes, the second chamber further including an inlet port, said inlet port allowing attachment of a hose through which pressurized air is normally supplied to the second chamber, and the electro mechanical means further including a solenoid valve mounted in the second chamber to shut-off the supply of pressurized air through the inlet port in response to the first coded signal, and allow the supply of pressurized air through the inlet port in response to the second coded signal.
1 Assignment
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Accused Products
Abstract
A remotely activated electro mechanical device is mounted in the dual chamber brake system of a vehicle or trailer. The device includes a solenoid valve and a receiver decoder which controls the valve in response to a coded signal ideally available only to law enforcement to vent pressure in the emergency chamber of a dual chamber brake system to automatically apply the brakes thereby bringing a moving vehicle to a stop. The device is also responsive to a second, different coded signal, available only to authorized users to vent pressure in the emergency chamber and to lock the brakes by preventing pressurized air from being supplied to the dual chamber brake system of a stopped or parked vehicle. The device is also responsive to coded signals which reverse the above-noted actions.
54 Citations
27 Claims
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1. An apparatus for locking and unlocking a brake actuator of a dual chamber brake system that operates brakes with compressed air, wherein the dual chamber includes the brake actuator in a first pressurizable chamber that serves as a service housing chamber and a high spring-rate spring in a second pressurizable chamber that serves as an emergency housing chamber, the brake actuator being movable in an axial direction to apply and release the brakes of the brake system;
- in the absence of compressed air the high spring-rate spring expanding to bias and keep the brake actuator in an axially forward position locking the brakes of the brake system, and wherein when there is compressed air in the second chamber the high spring-rate spring is compressed and allows retraction of the brake actuator from its forward position to unlock the brakes, the apparatus comprising;
electro mechanical means responsive to a first coded signal for venting pressurized air from the second chamber and for preventing entry of pressurized air into the second chamber whereby expansion of the high spring rate spring causes the brake actuator to move into the axially forward position locking the brakes of the brake system, the electromechanical means being mounted in one of the pressurizable service housing chamber and the pressurizable emergency housing chamber the electro mechanical means also being responsive to a second coded signal for allowing pressurized air to enter into the second chamber and for disallowing the venting of pressurized air from the second chamber thereby unlocking the brake actuator and unlocking the brakes, the second chamber further including an inlet port, said inlet port allowing attachment of a hose through which pressurized air is normally supplied to the second chamber, and the electro mechanical means further including a solenoid valve mounted in the second chamber to shut-off the supply of pressurized air through the inlet port in response to the first coded signal, and allow the supply of pressurized air through the inlet port in response to the second coded signal. - View Dependent Claims (2, 3, 4, 5)
- in the absence of compressed air the high spring-rate spring expanding to bias and keep the brake actuator in an axially forward position locking the brakes of the brake system, and wherein when there is compressed air in the second chamber the high spring-rate spring is compressed and allows retraction of the brake actuator from its forward position to unlock the brakes, the apparatus comprising;
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6. A dual chamber brake system that operates brakes with compressed air to be used in trailers and vehicles, the brake system including a brake actuator in a first pressurizable chamber that serves as a service housing chamber and a high spring-rate spring in a second pressurizable chamber that serves as an emergency housing chamber, the brake actuator being movable in an axial direction to apply and release the brakes of the brake system;
- in the absence of compressed air the high spring-rate spring expanding to bias and keep the brake actuator in an axially forward position locking the brakes of the brake system, the high spring-rate spring being compressed and allowing retraction of the brake actuator from its forward position so as to unlock the brakes when there is compressed air in the second chamber, the brake system further comprising;
electro mechanical means responsive to a first coded signal for venting pressurized air from the second chamber and for preventing entry of pressurized air into the second chamber whereby expansion of the high spring rate spring causes the brake actuator to move into the axially forward position locking the brakes of the brake system, the electromechanical means being mounted in one of the pressurizable service housing chamber and the pressurizable emergency housing chamber, the electro mechanical means also being responsive to a second coded signal for allowing pressurized air to enter into the second chamber and for disallowing the venting of pressurized air from the second chamber thereby unlocking the brake actuator and unlocking the brakes, the second chamber further including an inlet port, said inlet port allowing attachment of a hose through which pressurized air is normally supplied to the second chamber, and the electro mechanical means further including a solenoid valve mounted in the second chamber to shut-off the supply of pressurized air through the inlet port in response to the first coded signal, and allow the supply of pressurized air through the inlet port in response to the second coded signal. - View Dependent Claims (7, 8, 9, 10)
- in the absence of compressed air the high spring-rate spring expanding to bias and keep the brake actuator in an axially forward position locking the brakes of the brake system, the high spring-rate spring being compressed and allowing retraction of the brake actuator from its forward position so as to unlock the brakes when there is compressed air in the second chamber, the brake system further comprising;
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11. An apparatus for locking and unlocking a brake actuator of a dual chamber brake system that operates brakes with compressed air, wherein the dual chamber includes the brake actuator in a first pressurizable chamber that serves as a service housing chamber and a high spring-rate spring in a second pressurizable chamber that serves as an emergency housing chamber, the brake actuator being movable in an axial direction to apply and release the brakes of the brake system;
- in the absence of compressed air the high spring-rate spring expanding to bias and keep the brake actuator in an axially forward position locking the brakes of the brake system, and wherein when there is compressed air in the second chamber the high spring-rate spring is compressed and allows retraction of the brake actuator from its forward position to unlock the brakes, the apparatus comprising;
electro mechanical means, the electro mechanical means being mounted in one of the pressurizable service housing chamber and the pressurizable emergency housing chamber and being responsive to a first coded signal or to a third coded signal different from the first signal, for venting pressurized air from the second chamber and for preventing entry of pressurized air into the second chamber whereby expansion of the high spring-rate spring causes the brake actuator to move into the axially forward position locking the brakes of the brake system, the electro mechanical means also being responsive to a second coded signal or to a fourth coded signal for allowing pressurized air to enter into the second chamber and for disallowing the venting of pressurized air from the second chamber thereby unlocking the brake actuator and unlocking the brakes;
wherein an inlet port is included in the second chamber, said inlet port allowing attachment of a hose through which pressurized air is normally supplied to the second chamber, and wherein the electro mechanical means include a solenoid valve mounted in the pressurizable second chamber to shut-off the supply of pressurized air through the inlet port in response to the first or to the third coded signal, and allow the supply of pressurized air through the inlet port in response to the second coded or to the fourth coded signal. - View Dependent Claims (12)
- in the absence of compressed air the high spring-rate spring expanding to bias and keep the brake actuator in an axially forward position locking the brakes of the brake system, and wherein when there is compressed air in the second chamber the high spring-rate spring is compressed and allows retraction of the brake actuator from its forward position to unlock the brakes, the apparatus comprising;
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13. An apparatus for locking and unlocking a brake actuator of a dual chamber brake system that operates brakes with compressed air, wherein the dual chamber includes the brake actuator in a first pressurizable chamber that serves as a service housing chamber and a high spring-rate spring in a second pressurizable chamber that serves as an emergency housing chamber;
- the brake actuator being movable in an axial direction to apply and release the brakes of the brake system;
in the absence of compressed air the high spring-rate spring expanding to bias and keep the brake actuator in an axially forward position locking the brakes of the brake system, and wherein when there is compressed air in the second chamber the high spring-rate spring is compressed and allows retraction of the brake actuator from its forward position to unlock the brakes, the apparatus comprising;
electro mechanical means, the electro mechanical means being mounted in one of the pressurizable service housing chamber and the pressurizable emergency housing chamber and being responsive to a first coded signal or to a third coded signal different from the first signal, for venting pressurized air from the second chamber and for preventing entry of pressurized air into the second chamber whereby expansion of the high spring-rate spring causes the brake actuator to move into the axially forward position locking the brakes of the brake system, the electro mechanical means also being responsive to a second coded signal or to a fourth coded signal for allowing pressurized air to enter into the second chamber and for disallowing the venting of pressurized air from the second chamber thereby unlocking the brake actuator and unlocking the brakes;
wherein the electro mechanical means include a solenoid valve and a receiver decoder, said receiver decoder being mounted in one of the pressurizable first and second chambers and the receiver decoder being adapted for receiving the first, second, third, and fourth coded signals and for controlling the solenoid valve in response to said signals. - View Dependent Claims (14, 15, 16, 17)
- the brake actuator being movable in an axial direction to apply and release the brakes of the brake system;
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18. A dual chamber brake system for locking and unlocking a brake actuator of a dual chamber brake system that operates brakes with compressed air to be used in trailers and vehicles, the brake system including the brake actuator in a first pressurizable chamber that serves as a service housing chamber and a high spring-rate spring in a second pressurizable chamber that serves as an emergency housing chamber, the brake actuator being movable in an axial direction to apply and release the brakes of the brake system;
- in the absence of compressed air the high spring-rate spring expanding to bias and keep the brake actuator in an axially forward position locking the brakes of the brake system, and wherein when there is compressed air in the second chamber the high spring-rate spring is compressed and allows retraction of the brake actuator from its forward position to unlock the brakes, the dual chamber brake system further comprising;
electro mechanical means, the electro mechanical means being mounted in one of the pressurizable service housing chamber and the pressurizable emergency housing chamber and being responsive to a first coded signal or to a third coded signal different from the first signal, for venting pressurized air from the second chamber and for preventing entry of pressurized air into the second chamber whereby expansion of the high spring-rate spring causes the brake actuator to move into the axially forward position locking the brakes of the brake system, the electro mechanical means also being responsive to a second coded signal or to a fourth coded signal for allowing pressurized air to enter into the second chamber and for disallowing the venting of pressurized air from the second chamber thereby unlocking the brake actuator and unlocking the brakes;
wherein an inlet port is included in the second chamber, said inlet port allowing attachment of a hose through which pressurized air is normally supplied to the second chamber, and wherein the electro mechanical means include a solenoid valve mounted in the pressurizable second chamber to shut-off the supply of pressurized air through the inlet port in response to the first or to the third coded signal, and allow the supply of pressurized air through the inlet port in response to the second coded or to the fourth coded signal. - View Dependent Claims (19)
- in the absence of compressed air the high spring-rate spring expanding to bias and keep the brake actuator in an axially forward position locking the brakes of the brake system, and wherein when there is compressed air in the second chamber the high spring-rate spring is compressed and allows retraction of the brake actuator from its forward position to unlock the brakes, the dual chamber brake system further comprising;
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20. A dual chamber brake system for locking and unlocking a brake actuator of a dual chamber brake system that operates brakes with compressed air to be used in trailers and vehicles, the brake system including the brake actuator in a first pressurizable chamber that serves as a service housing chamber and a high spring-rate spring in a second pressurizable chamber that serves as an emergency housing chamber, the brake actuator being movable in an axial direction to apply and release the brakes of the brake system;
- in the absence of compressed air the high spring-rate spring expanding to bias and keep the brake actuator in an axially forward position locking the brakes of the brake system, and wherein when there is compressed air in the second chamber the high spring-rate spring is compressed and allows retraction of the brake actuator from its forward position to unlock the brakes, the dual chamber brake system further comprising;
electro mechanical means, the electro mechanical means being mounted in one of the pressurizable service housing chamber and the pressurizable emergency housing chamber and being responsive to a first coded signal or to a third coded signal different from the first signal, for venting pressurized air from the second chamber and for preventing entry of pressurized air into the second chamber whereby expansion of the high spring-rate spring causes the brake actuator to move into the axially forward position locking the brakes of the brake system, the electro mechanical means also being responsive to a second coded signal or to a fourth coded signal for allowing pressurized air to enter into the second chamber and for disallowing the venting of pressurized air from the second chamber thereby unlocking the brake actuator and unlocking the brakes;
wherein the electro mechanical means include a solenoid valve and a receiver decoder, said receiver decoder being mounted in one of the pressurizable first and second chambers and the receiver decoder being adapted for receiving the first, second, third and fourth coded signals and for controlling the solenoid valve in response to said signals. - View Dependent Claims (21, 22, 23, 24)
- in the absence of compressed air the high spring-rate spring expanding to bias and keep the brake actuator in an axially forward position locking the brakes of the brake system, and wherein when there is compressed air in the second chamber the high spring-rate spring is compressed and allows retraction of the brake actuator from its forward position to unlock the brakes, the dual chamber brake system further comprising;
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25. An apparatus for locking and unlocking a brake actuator of a dual chamber brake system that operates brakes with compressed air, wherein the dual chamber includes the brake actuator in a first pressurizable chamber that serves as a service housing chamber and a high spring-rate spring in a second pressurizable chamber that serves as an emergency housing chamber, the brake actuator being movable in an axial direction to apply and release the brakes of the brake system;
- in the absence of compressed air the high spring-rate spring expanding to bias and keep the brake actuator in an axially forward position locking the brakes of the brake system, and wherein when there is compressed air in the second chamber the high spring-rate spring is compressed and allows retraction of the brake actuator from its forward position to unlock the brakes, the apparatus comprising;
electro mechanical means responsive to a first coded signal or to a third coded signal different from the first signal, for venting pressurized air from the second chamber and for preventing entry of pressurized air into the second chamber whereby expansion of the high spring rate spring causes the brake actuator to move into the axially forward position locking the brakes of the brake system, the electromechanical means being mounted in one of the pressurizable service housing chamber and the pressurizable emergency housing chamber and also being responsive to a second coded signal or to a fourth coded signal for allowing pressurized air to enter into the second chamber and for disallowing the venting of pressurized air from the second chamber thereby unlocking the brake actuator and unlocking the brakes, the electro mechanical means including a solenoid valve and a receiver decoder, said receiver-decoder being mounted in one of the pressurizable first and second chambers and being adapted for receiving the first, second, third and fourth coded signals and for controlling the solenoid valve in response to said signals, the solenoid valve being controlled by flow of electric current and wherein pressurized air is vented from the second chamber and entry of pressurized air into the second chamber is prevented in the absence of flow of current through the solenoid valve, the current being supplied from a power source, and wherein the apparatus further comprises switch and circuit means interposed between the power source and the solenoid valve and wherein the receiver decoder controls the switch and circuit means in response to the first, second, third and fourth signals, respectively, the switch and circuit means being adapted for; (1) interrupting the flow of current in response to the first signal received by the receiver decoder; (2) interrupting the flow of current in response to the third signal received by the receiver decoder; (3) allowing the flow of current in response to the second signal, received by the receiver decoder, and (4) allowing the flow of current in response to the fourth signal received by the receiver decoder, the switch and circuit means including three separate switches, one of said switches being a proximity switch controlled by the position of the brake actuator and staying in a closed position when pressurized air is present in the second chamber, the other two switches being controlled by the receiver decoder. - View Dependent Claims (26)
- in the absence of compressed air the high spring-rate spring expanding to bias and keep the brake actuator in an axially forward position locking the brakes of the brake system, and wherein when there is compressed air in the second chamber the high spring-rate spring is compressed and allows retraction of the brake actuator from its forward position to unlock the brakes, the apparatus comprising;
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27. A dual chamber brake system for locking and unlocking a brake actuator of a dual chamber brake system that operates brakes with compressed air to be used in trailers and vehicles, the brake system including the brake actuator in a first pressurizable chamber that serves as a service housing chamber and a high spring-rate spring in a second pressurizable chamber that serves as an emergency housing chamber, the brake actuator being movable in an axial direction to apply and release the brakes of the brake system;
- in the absence of compressed air the high spring-rate spring expanding to bias and keep the brake actuator in an axially forward position locking the brakes of the brake system, and wherein when there is compressed air in the second chamber the high spring-rate spring is compressed and allows retraction of the brake actuator from its forward position to unlock the brakes, the dual chamber brake system further comprising;
electro mechanical means mounted in one of the pressurizable service housing chamber and the pressurizable emergency housing chamber and being responsive to a first coded signal or to a third coded signal different from the first signal, for venting pressurized air from the second chamber and for preventing entry of pressurized air into the second chamber whereby expansion of the high spring rate spring causes the brake actuator to move into the axially forward position locking the brakes of the brake system, the electro mechanical means also being responsive to a second coded signal or to a fourth coded signal for allowing pressurized air to enter into the second chamber and for disallowing the venting of pressurized air from the second chamber thereby unlocking the brake actuator and unlocking the brakes, the electro mechanical means including a solenoid valve and a receiver decoder, said receiver-decoder being mounted in one of the pressurizable first and second chambers and being adapted for receiving the first, second, third and fourth coded signals and for controlling the solenoid valve in response to said signals, the solenoid valve being controlled by flow of electric current and wherein pressurized air is vented from the second chamber and entry of pressurized air into the second chamber is prevented in the absence of flow of current through the solenoid valve, the current being supplied from a power source, and wherein the apparatus further comprises switch and circuit means interposed between the power source and the solenoid valve and wherein the receiver decoder controls the switch and circuit means in response to the first, second, third and fourth signals, respectively, the switch and circuit means being adapted for; (1) interrupting the flow of current in response to the first signal received by the receiver decoder; (2) interrupting the flow of current in response to the third signal received by the receiver decoder; (3) allowing the flow of current in response to the second signal, received by the receiver decoder, and (4) allowing the flow of current in response to the fourth signal received by the receiver decoder, the switch and circuit means including three separate switches, one of said switches being a proximity switch controlled by the position of the brake actuator and staying in a closed position when pressurized air is present in the second chamber, the other two switches being controlled by the receiver decoder.
- in the absence of compressed air the high spring-rate spring expanding to bias and keep the brake actuator in an axially forward position locking the brakes of the brake system, and wherein when there is compressed air in the second chamber the high spring-rate spring is compressed and allows retraction of the brake actuator from its forward position to unlock the brakes, the dual chamber brake system further comprising;
Specification